Navigation device with fast frame rate upshift

What is claimed is: 1. A navigation device, configured to detect displacement with respect to a surface, the navigation device comprising: a memory configured to store a predetermined relationship between a plurality of moving speeds and a plurality of frame periods; an image sensor configured to successively capture a second previous image frame, a previous image frame and a current image frame; and a processor electrically coupled to the memory and the image sensor, and configured to calculate a previous displacement according to the second previous image frame and the previous image frame, calculate a current displacement and a current speed according to the previous image frame and the current image frame, read a frame period from the memory according to the calculated current speed, determine an acceleration according to the current displacement and the previous displacement, set a next frame period as the read frame period when the acceleration is smaller than an acceleration threshold, and set the next frame period to be shorter than the read frame period when the acceleration is larger than the acceleration threshold, wherein the previous displacement includes a first direction previous displacement and a second direction previous displacement; the current displacement includes a first direction current displacement and a second direction current displacement; the calculated current speed includes a first direction speed and a second direction speed, and the read frame period is determined according to a bigger one of the first direction speed and a second direction speed; and the acceleration is a larger absolute value of (i) a first direction difference between the first direction previous displacement and the first direction current displacement, and (ii) a second direction difference between the second direction previous displacement and the second direction current displacement. 2. The navigation device as claimed in claim 1 , wherein the first direction speed is calculated by dividing the first direction current displacement by a current frame period between the current image frame and the previous image frame; and the second direction speed is calculated by dividing the second direction current displacement by the current frame period. 3. The navigation device as claimed in claim 2 , wherein the current frame period is another read frame period accessed from the memory or a frame period shorter than the read frame period. 4. The navigation device as claimed in claim 1 , wherein when the acceleration is larger than the acceleration threshold, the next frame period is set according to an acceleration ratio, when the first direction difference is larger than the second direction difference, the acceleration ratio is determined according to a ratio between the first direction current displacement and the first direction previous displacement; and when the second direction difference is larger than the first direction difference, the acceleration ratio is determined according to a ratio between the second direction current displacement and the second direction previous displacement. 5. The navigation device as claimed in claim 1 , further comprising a register electrically coupled to the processor and configured to store a flag indicating whether the acceleration is smaller or larger than the acceleration threshold. 6. The navigation device as claimed in claim 1 , further comprising a light source configured to illuminate the surface, wherein the processor is further configured to adjust an emission period of the light source corresponding to the next frame period. 7. A navigation device, configured to detect displacement with respect to a surface, the navigation device comprising: a light source; an image sensor configured to successively capture a second previous image frame, a previous image frame and a current image frame; and a processor electrically coupled to the light source and the image sensor, and configured to calculate a previous displacement according to the second previous image frame and the previous image frame, calculate a current displacement and a current speed according to the previous image frame and the current image frame, determine an emission period of the light source corresponding to the calculated current speed, determine an acceleration according to the current displacement and the previous displacement, set a next emission period as the determined emission period when the acceleration is smaller than an acceleration threshold, and set the next emission period to be shorter than the determined emission period when the acceleration is larger than the acceleration threshold, wherein the previous displacement includes a first direction previous displacement and a second direction previous displacement; the current displacement includes a first direction current displacement and a second direction current displacement; the calculated current speed includes a first direction speed and a second direction speed, and the emission period is determined corresponding to a bigger one of the first direction speed and a second direction speed; and the acceleration is a larger absolute value of (i) a first direction difference between the first direction previous displacement and the first direction current displacement, and (ii) a second direction difference between the second direction previous displacement and the second direction current displacement. 8. The navigation device as claimed in claim 7 , wherein the first direction speed is calculated by dividing the first direction current displacement by a current frame period between the current image frame and the previous image frame; and the second direction speed is calculated by dividing the second direction current displacement by the current frame period. 9. The navigation device as claimed in claim 7 , wherein when the acceleration is larger than the acceleration threshold, the next emission period is set corresponding to an acceleration ratio, when the first direction difference is larger than the second direction difference, the acceleration ratio is determined according to a ratio between the first direction current displacement and the first direction previous displacement; and when the second direction difference is larger than the first direction difference, the acceleration ratio is determined according to a ratio between the second direction current displacement and the second direction previous displacement. 10. The navigation device as claimed in claim 7 , wherein the emission period is determined corresponding to a predetermined relationship between a plurality of moving speeds and a plurality of frame periods. 11. The navigation device as claimed in claim 7 , further comprising a register electrically coupled to the processor and configured to store a flag indicating whether the acceleration is smaller or larger than the acceleration threshold. 12. The navigation device as claimed in claim 7 , wherein the image sensor is further configured to capture a next image frame using a frame period corresponding to the set emission period. 13. A navigation device, configured to detect displacement with respect to a surface, the navigation device comprising: a memory configured to store a predetermined relationship between a plurality of moving speeds and a plurality of frame rates; an image sensor configured to successively capture a second previous image frame, a previous image frame and a current image frame; and a processor electrically coupled to the memory and the image sensor, and configured to calculate a previous